Oil emulsion treater



Sep. 2l, 98. G, E, DAKE ErAL 2,449,738

v OIL EMULSION THEATER v Filed April 14, 1944 Y v 3 Sheets-Sheket l sepfgzl, 194s. G. E. BAKE Em. 2,449,738

:011. EMULsIoN HEATER, .Fild April 14, 1944 I -3 SheetSK-Sheet 2 Sept' 2l 1948- G. E. DAKE Erm. Y .2,449,738

f oIL EMULsYIoN THEATER Filed April 14. 1944 v 3 sheets-sheet :s

VEN/'0R 6204205 E. @La me Jole H. A YNE Patented Sept. 21;, 1948 on. aMULsroNTaEA'rER George E. Bake', Parkersburg, W. Va., and Joe A.

Lyne, Houston, Tex., asslgnors to The Parkersburg Rig da Reel Company, Parkersburg, W. Va.,

a corporation of West Virginia Application April 14, 1944, sei-1am. 531,106 1s claims?. (ci. 21o-52.5)

This invention relates to a continuous flow oil emulsion treater.

An important object of the invention is to provide a novel type of continuous ow heater wherein a particularly eilcient arrangement of elelments is employed for the separation of water from oil within the apparatus.

A further objectis to provide a novel apparatus of this type wherein the incoming Well fluid is eiclently distributed in the apparatus adjacent the inlet to increase the eiilciency of the apparatus, the separation of gas, oil and water commencing immediately upon the introduction of the well fluid.

A further object is to provide a treater of the character referred to having inner and outer elongated preferably concentric casing members between which the Well fluidis introduced at a substantial distance from the bottom of the apparatus, the initial separating steps occurring in the annular space between the casings to increase the efficiency of the final separating action which takes place within the inner casing.

A further object is to provide such an apparatus having heating means within the inner casing member adjacent the bottom thereof to effectively heat the water and the emulsions of oil and water passing upwardly into the bottom of the inner casing from the space between the two casings, the downwardly flowing fluids in the annular space between the two casings serving as a heat insulator to minimize loss of heat from the interior of the apparatus and to absorb heat passing radially outwardly from the inner casing member to p-reheat the fluids flowing downwardly in the annular space referred to.

A further object is to provide a novel type of baille means within the inner casing to assist in the effective separation of the oil from the water and to maintain an effective thermo-syphonic movement of fluids in the lower portion of the inner casing member.

A further object is to provide an arrangement of bailles, inconjunction with a manhole in the apparatus, whereby the bailles may be easily inserted, and easily removed for the purpose of cleaning, etc. l A further object is to provide a novel arrangement of heating tubes for the eicient and unliorm heat transfer to the fluids passing upwardly around the tubes within the inner casing member.

A further object is to provide an arrangement of parts whereby the flow of all fluids in the apparatus is completely and automatically controlled.

A further object is to provide a water cycling means for returning hot water from near the bottom of the apparatus to` a point within the annular space between the two casing members to thus provide an additional hot water wash for the well luids, where desirable.

A further Objectis to provide novel means for maintaining the level of separated water within the apparatus approximately at the same position at all times and to drain ol excess water without the use of a float controlled or similar mechanism.

Other objects and advantages of the invention will become apparent during the course of the fol-- ment of the invention.y In this showing,

Figure 1 is a front elevation of the apparatus',

Figure 2 is a side elevation of the same,

Figure 3 is a section on line,3-3 of Figure 1, parts being shown in elevation,

Figure 4 is a similar view on line IlI-ll of Figure 2,

Figure 5 is a central vertical sectional view through the apparatus looking in the same direction as Figure 1, parts being shown in elevation,.

Figure 6 is an enlarged horizontal sectional View on line 6-6 of Figure 5,

Figure 7 is a similar view on line I-T of Figure 5, and

Figure 8 is an enlarged fragmentary sectional view of a portion of one of the horizontal ballles. Referring to the drawings, the numerals I0 and II indicate a pair of casing members, the former of which may be designated as the shell and the latter of which may be termed the inner cylinder. The shell I0 is provided with an upper head I2 and a bottom head I3. These heads are preferably integrally wel-ded to the shell and the apparatus as a whole is supported by a, preferably welded steel base It. V

'I'he casing members I0 and II are preferably concentric with each other, the cylinder I I being of somewhat smaller diameter than the shell I0 to provide an annular space I5 for a purpose to be describedl The cylinder II extends throughout the greater portion of the hei-ght of the shell I0 as shown in Figure 2 and is supported with respect to the shell by suitably welded braces I 6 (Figure '7). The cylinder II is placed in position in the shell and welded to the braces I6 before the heads I2 and I3 are welded in position as will `meral 32.

extending tangentiallyinto the space I5 as shown in Figure 7. The tangential introduction of the well fluid is highly desirable. Because of the nature of the well fluids, some of the water will be free while the remainder will be in an emulsion with the oil. The tangential introduction of the iluid serves to uniformly distribute the mixture of fluids around the annular space so that the separating action can immediately and unie formly commence, as will be referred to later.

The inner cylinder is open at both ends for direct communication with the interior oi' the shell I0. Above the upper end of the cylinder II a' horizontal preferably solid baille I9 is arranged, this baille being supported by any suitable means such as clips 20 welded to the shell l0. The baille I9 is of somewhat smaller diameter than the shell I forthe passage of gases therearound into the gas chamber 2| above the baille I9. A pair of concentric cylindrical bailles 22 are welded at their upper ends to the head I2 and extend 'downwardly to a point slightly spaced above the baille I9. Upwardly flowing gases from the space I5 and from the interior of the cylinder wipe over and are guided radially by the baille I9 to pass around the edge of this member. The gases then ilow over and wipe against the concentric bailles 22, and then ilow from the chamber 2| through a gas outlet pipe 23.

The well fluid introduced through the pipe |8 ilows downwardly through the annular space I5,

thence around the lower end of the cylinder to move upwardly into such cylinder as indicated by the arrows at the lower end thereof in Figure 5, except that free water reaching the lower end of the annular space I5 may remain in the bottom of the shell I0.

The mixture flowing upwardly into the bottom of the cylinder l0 is efficiently heated. For this purpose heating tubes 25 are provided. These tubes preferably are a part of a heating mechanism of the type shown in the copending application of George E. Dake, illed July 21, 1943, Serial No. 496,357, now Patent 2,387,883, and form no part. per se, of the present invention. Each tube 25 extends transversely of the apparatus and externally of the shell I0 it is provided with an annular flange 26 bolted as at 21 to an annular ilange 28 carried by a sleeve 29. .This sleeve extends through both of the casing members I 0 and |I. as clearly shown in Figure 3 and is welded to both of these members to form leak-proof joints. Each tube 25 is provided at its outer end with a plate 30 bolted thereto as at 3| and carrying the necessary means for supplying fuel to the interior of the inner end of the tube 25 and the elements arranged therein as shown in the copending application referred to. The fuel employed is preferably gas, and the fuel inlet pipes are generally indicated in Figure 2 by the nu- Each heating unit is provided with a transversely extending outlet pipe 33 for the products of combustion, and this pipe is connected by suitable pipe sections 34 and 35 to a stack 55 (Figures 1 and 3). This stack may be provided with a suitable damper 31 and may be suitably supported with respect to the shell I0 by brace members 38 welded to the shell I9 and to the stack 38.

Any suitable means may be employed for eil'ectively supporting the inner end oi' each tube 25 within the cylinder I5. For this purpose a transverse structural member. (Figures 3 and 5) mayl be provided for each tube 25, the members 4l preferably extending diametri'cally across the cylinder II and being welded at their ends thereto. The tubes 25 may be arranged between spaced vertically extending structural members 4|, and between the members 4| may be arranged transverse hold-down structural members 42. Thus the heating members will be effectively supported in position by means which will not substantially interfere with the upward flowing of the emulsion and other iluids around the heating units.

A series of spaced horizontal baille units is arranged above the heating units. each baille unit being indicated as a whole by the numeral 45, these units being spaced one above the other as shown in Figure 5. Each of the baille units is made up oi' a pair of complementary semicircular plate sections 45 having their adjacent edges supported by a transverse structural member 41 welded or otherwise secured to the inner surface of the cylinder The outer edges oi the sections 45 may be suitably supported by small angle clips or the like 45 also welded to the cylinder I. Each of the baule sections 45 is preferably formed of a ilat steel plate stamped as shown in Figure 8 to provide openings 49 formed by up-turned roughened lips 55 resulting from the stamping operation. The upwardly moving well iluids ilow through the openings 49, the water separating from the fluid settling on the baille sections 46 and flowing downwardly around the periphery of each baille unit 45, as indicated by the arrows in Figure 5. The upward ow of fluid is generally around the heating units and thence upwardly through the bai'ile units 45 in a slowly moving column of smaller diameter than the bailles, this upward flow coupled with the downward flow of water radially outwardly of the bailles maintaining a constant thermo-syphonic fluid circulation.

The baflles may be inserted and removed through a manhole tube 5| of vertically elongated cross-section as shown in Figure 5. The manhole tube extends through both of the casing members I0 and and is welded to each of these members to form a leak-proof joint. The tube 5I is ilanged as at 52 to be bolted as at 53 to a cover plate 54, a suitable gasket being arranged between the i'iange 52 and cover 54 to insure a perfectly leak-proof joint. The baule units 45 are formed of complementary sections, as stated, and these sections may be readily separately introduced into the apparatus through the manhole 5|. and removed from theapparatus through the same tube.

In an operation of the apparatus, the water is maintained approximately at the level indicated by the dotted line 55 and a substantial body of oil in a quiescent state is maintained above the water approximately to the level indicated by the line 55 (Figure 5). An oil outlet pipe 51 is connected to a suitable sleeve 58 extending through and welded to the shell members l5 and I|. the oil thus being taken oil.' approximately at the level 55 referred to. The level of the oil will be determined by the position of the outlet pipe 51, oi' course, and the relative level of the water 55 will be determined automatically by means of an outside pipe column 55 having inwardly extending upper and lower pipe connections 5| and. 52 respectively, the former of which is tapped into the gas outlet line 25. The lower pipe connection 52 is tapped into the bottom oi the shell III as indicated in Figures 2 and 5. Intermediate the ends of the column 55 a pipe 53 is connected.,and the position oi' this connection into the pipe 50 determines the level 55 of the Water. It will be noted that the pipe 55 is connected into the pipe sacarse vmeans or any similar mechanism. This feature will be referred to later.

The apparatus is adapted for use either at atmospheric pressure or superatmospheric pressure, the latter condition occurring when the well fluids flow into the apparatus under superatmospheric pressure. To maintain aproper pressure balance throughout the system suitable pressure control valves are employed. For example, the pipe 63, through which excess water passes from the system as it accumulates, is provided with a pressure regulating valve E5 while the gas outlet pipe 23 is provided with a similar valve te. A similar valve 61 will be arranged in the oil outlet pipe 5l. The purpose of the pressure regulating valves is solely to equalize the pressure on the well inlet ill' so that .the operation of the system will be identical to its operation under atmospheric pressure, except that more gas will remain in solution in the oil. This, in fact, is the preferred operation of the apparatus. In order to positively prevent any dangerous pressure accumulations, a pressure release valve 68 communicates with the gas chamber 2i.

For the purpose of draining the system, when desired, an outlet pipe 69 communicates with the pipe 62 leading to the bottom of the shell Iii, and any suitable type of cutoi valve 7D is arranged in the pipe GS.

Means are provided for effecting an auxiliary cycling of hot water through the system when desired. A pipe l2 is tapped into the shell I d (Figures 1 and 5), preferably at a point between the two heating devices, to receive relatively hot water therefrom, and this pipe leads to a pump 'Ii which may be of the centrifugal type as indicated in Figure 2. From the outlet side of the pump 'I4,`a. pipe 15 extends upwardly along the tank andhas its upper end 75 extending tangentially through the shell Iii above the inlet pipe I8. The pipe 'I5 may be suitably bent or provided with proper fittings to extend over the inlet pipe I8.

The upper end of the pipe 'i5 has its discharge end 1li (Figure 5) arranged to discharge hot water into a rolled annular angle ring 11. "I'he tangential arrangement of the water outlet i6 causes an even oW of water around the angle ring 11. This ring has its outer edge welded to the shell I and has its inner vertical flange of larger diameter than the cylinder II sc that the water overflows the ring I1 and thence flows downwardly in the annular space I5 to mingle with the incoming well fluids.

The apparatus is preferably provided with a water level gauge 'I8 as shown in Figure l. This gauge is conventional and need not be illustrated in detail, and it will be understood that it communicates with the interior of the cylinder II to indicate the level 55 of the water.

The operation of the apparatus is as follows:

Well iluids consisting of gas, oil; free water y and emulsions of oil and water are introduced tangentially through the pipe I8 (Figure '7) into the annular space I5. The fluid-s are thus given a rotary motion to insure an even distribution and uniform downward ilow of the fluid throughout the circumference ofthe space I5. As the fluids are introduced into this space, the relatively large surface area at the top of the radially outwardly thereover.

f stantlal area.

cylindrical column of uld in the space i5 permits the ready escape of any free gas.

The gas rises and travels toward the gas outlet and is .required to pass through the relatively small space between the horizontal baille I9 and the shell Iii. Any gases rising from the surface of the oil within the cylinder I0 flow into contact with the baille I9 and thence All of the gas then passes around the peripheral edge of the baille i9, and thence past the edges of the cylindrical bailes 22. As each obstruction to the flow of the gas is encountered, the gas is subjected to a wiping action and any fluid carried over by the gas is picked up .and returned by gravity to the interior of the apparatus.

It will be appreciated that the apparatus is of substantial size and the space I 5 is of suby Thus the downward flow of the well fluids :in this space is slow. However, free water, which is the heaviest constituent of the well fluids, flows downwardly more rapidly than the oil and elnulsion constituents. Thus the latter constituents low downwardly quite slowly until they reach the water space within the bottom of the shell IG.

ln the operation of the apparatus it will be apparent that the' heating devices will. be in operation to maintain surrounding fluids, ymostly water, at all times in a heated condition. The well fluids flowing upwardly through the lower portion of the cylinder Ii passing through the hot water in the lower portion of the cylinder II. Some of the heat of the fluids in the cylinder II will be conducted outwardly therethrough. The uids passing downwardly through the annular space I5 are relatively cool and they form an insulating medium against the substantial loss ofheat from the interior of the apparatus. space I5 absorb heat as they move downwardly, thus e'ecting a conservation of heat. It will be apparent thatv the fluids as they reach the bot# tom portion of the shell I0 are thus somewhat` preheated and accordingly less heat is required by the heating .m'eans to raise the fluids within the cylinder I0 to the proper temperature.

'The water space in the present apparatus extends upwardly within the cylinder II approxi-` mately to the level previously referred to and indicated by the numeral 55. This level is 'slightly above the uppermost baffle unit 45. The circulation of fluids through the space up to the level 55 is caused by a combination of differences in specific gravities ofthe fluids and a thermosyphonlc flow. This flow is generally upwardly around the heatertubes through the central portion of the cylinder II and thence downwardly around the inner circumference of the cylinder I I.

As the oil and emulsion move upwardly within the inner cylinder they flow through the body of water and over the heating tubes and are `thus evenly heated and distributed. In flowing up wardly through the water the fluids are thoroughly washed, and inpassing through the small relatively rough-edged openings 49 of the baille units 48, the fluids are further distributed and divided. Water progressively separates from the oil and settles on the baille units 45, and as it accumulates the water flows radially outwardly over the bailles and thence downwardly over the baille edges thereof, as indicated by the arrows in Figure 5. 4

As a result of the actions referred to, the emulsion rising above the uppermost baille is so conwill be heated by The fluids in the ditioned that a large percentage of what entrapped water remains therein drops out. This water becomes a part of the large body of water through which the emulsion and oil must pass. There is a continuous thermo-syphonic ilcw of the free water with the emulsion, in the paths referred to above, and accordingly there is a constant washing of the emulsion.

The downward flow of water through the spaces between the peripheral edges of the baille units 45 and the cylinder Il forms a water seal which impedes any upward flow of emulsion and. oil through these spaces. Accordingly all of the oil and emulsion is forced to flow upwardly through the bailles 45 to be subjected to the action ofthese units.

After the emulsion has passed through the uppermost baille, and as it continues to ow upwardly through the remainder oi the water space, practically all of the free water drops out and the fluid rising to the oil settling or storage space between the levels 55 and 56 is practically all free oil. In one typical form of the apparatus the distance between the levels 55 and 55 is eight feet. This provides a, large volume of settling space in which the oil remains in a quiescent state, and any small amount of remaining water readily drops out.

As the oil accumulates it flows outwardly through the pipe 51. Any tendency for the level of the water to rise above the normal level 55 unbalances the column of fluid within the apparatus, the Weight of the column between the bottom of the apparatus and the level 55 then becoming greater than the weight of the column of water between the bottom of the apparatus and the overflow T 64. Under such conditions the excess water will overflow through the pipe 53 until the normal balance of liquid levels is restored.

It is obvious Athat the overow connection for the pipe 63 is below the level 55 because of the lower specific gravity of the oil between the levels 55 and 56.

The present apparatusfully meets the primary requirements of an emulsion treater, namely, that the movement of the fluids be as slow as possible; that the emulsion be thoroughly washed Ain an excess of water while in a heated condiing tubes are heated preferably to a maximum temperature of 160 F., this being the top tem perature limit in most cases. Where a chemical is employed to assist in breaking the emulsions, a lower temperature will be used as is well known. It ordinarily requires from three to eight hours for a given particle of oil emulsion to pass from the inlet I8 to the bottom of the inner cylinder Il. The upward movement of the fluids within the cylinder I I will be somewhat more rapid until the fluids reach the water level 55. The size of the apparatus is such that it handles a substantial volume of incoming Wellsiluids.

In accordance with the foregoing description it will be apparent that the present apparatus is highly advantageous in use for a number of distinct reasons. The free water in the well fluids drops out freely during downward movement through the space i5. and the slow downward movement provides for the ready escape of the conditions it is not necessary to insulate the apy paratus to any substantial Iextent because of the fact that heat ordinarily lost to the atmosphere is absorbed by the downwardly travelling fluids.

The arrangement of the heating tubes provides efilcient and uniform heat transfer to the fluids, and throughout the upward flow, the emulsion is thoroughly washed by the water in the lower portion of the apparatus. The fluids are thoroughly distributed and divided by the baffle units 45, and the directions of flow of the fluids are completely controlled within the cylinder Il by the baiiles and by the fluid baille formed by the downward ilow of free water radially outwardly of the baiiles 45.

Any gases which may arise from the hot oil in the inner cylinder will be cooled to a considerable extent before passing into the gas chamber 2| and mingling with the gases passing directly into this chamber from the well. Any condensation from these gases is directly returned to the interior of the apparatus.

The apparatus may be used for either atmospheric pressure or superatmospheric pressure operation as stated. For atmospheric pressure operation the pressure regulating valves of course need not be used. These valves are employed for operation under superatmospheric pressure solely to balance pressures in the system as necessitated by the pressures in the incoming well fluids. i

Once the system hask been placed in operation any rate of flow of water into the system as may be necessary for the proper washing of the oil may be provided by 'operation of the pump 14. Accordingly it is unnecessary to add any excess water from an outside source and the recycling of the water feeds the excess water to the system at an elevated temperature. The provision of the outside fluid column 60 and the take-off pipe 63 provides for the progressive draining oil' of water to maintain the vproper water level in the apparatus. The tapping of the pipes 6I and 62 into the gas outlet and water drain-ofi pipes provides for the water level control means without having to tap into the body of the apparatus itself. The water level is controlled wholly without the use of float controlled or similar means.

It is to be understood that the form of our invention herewith shown and described may be taken as a preferred example of the same and that various changes in the shape, size and arrangement of parts may be resorted to without departing from the spirit of the invention or the scope of the subjoined claims.

We claim:

1. In an oil and water separator. a pair of substantially vertical casing units one within the other and spaced to form therebetween a verti` cally elongated fluid path. the inner casing unit having an open lower end communicating with the lower end of said fluid path for the flow of fluid therefrom into said inner casing unit, means for introducing a mixture of oil and water into said path at a point spaced a substantial distance above the lower end thereof, heating means within the lower portionl of said inner casing unit. baille means arranged in the inner casing unit above said heating means, an oil outlet communicating with the inner casing unit at a point spaced above the bottom thereof, and a water outlet communicating with said outer casing unit adjacent the bottom thereof.

2. In an oil and water separator, a pair of substantially vertical casing units one within the other and spaced from each other to form therebetween a vertically elongated iiuid path, said inner casing unit having an open lower end communicating with the lower end of said fluid path for the ow of fluid therefrom into the lower end of said inner casing unit, means for introducing a mixture of oil and water into said path at a point spaced a substantial distance above the lower end thereof, heating' means within the lower. portion of said inner casing unit, a horizontal baie plate arranged in said inner casmeans including a water outlet communicating y with said outer casing unit adjacent the bottom between a vertically elongated fluid path, said ing unit above said heating means and provided with openings, an oil outlet communicating with the inner casing unit at a point spaced above the bottom thereof, and a water outlet coinmunicating with the outer casing unit adjacent the bottom thereof.

3. In an oil and water separator, a pair of substantially vertical casing units one within the other and spaced from each other toV form therebetween a vertically elongated fluid path, said inner casing unit having an open lower end communicating with the lower end of said fluid path for the flow of fluid therefrom into the lower end of said inner casing unit, means for introducing a mixture of oil and water into said path at a point spaced a substantial distance above the lower end thereof, heating means within the lower portion of said inner casing unit, a horizontal baille plate arranged in said inner casing unit above said heating means and provided with openings, said bale plate having its edge slightly spaced throughout its periphery from said inner casing unit for the downward flow of separated water settling on said baille unit, an oil outlet communicating with the inner casing unit at a point spaced above the bottom thereof, and a water outlet communicating with the outer casing unit adjacent the bottom thereof.

4. In an oil and water separator, a pair of substantially vertical casing units one within the other and spaced from each other to form therebetween a vertically elongated fluid path, said inner casing unit having an open lower end communicating with the lower end of said fluid path for the flow of uid therefrom into the lower end of said inner casing unit, means for introducing a mixture of oil and water into said path at a point spaced a substantial distance above the lower end thereof, heating means within the lower portion inner casing unit having an open lower end communicating with the lower end of said fluid path for the flow of fluid therefrom into the lower end of said inner casing unit, means for introducing a mixture of oil and water into said path at a point spaced a substantial distance above thelower end thereof. heating means within the Y lower portion of said inner casing unit, a horizontal baille unit arranged in said inner casing above said heating means, said baille unit having openings therethrough andhaving its edge slightly spaced from said inner casing unit for the downward flow of separated water settling on said baille unit, an oil outlet communicating with said inner casing unit a substantial distance above said bae unit,a duct connected at its upper end to said outer casing unit adjacent the top and bottom thereof, and a water outlet pipe connected to saidduct at such point in the height thereof as to maintain the level of the water in said inner casing unit at a point spaced above said baiiie unit and below said outlet,

6. An oil and water separator comprising a vertically elongated external casing closed at its upper and lower ends, an internal casing supported within and spaced throughout its circumference from said outer casing, said inner casing having its lower end open lfor communication with the space 'between saidcasings, means for introducing iiuids to be treated into said space at a point a substantial distance above the lower end of said inner casing, heating means within the lower portion of said inner casing, a baille arranged above said heating means, an oil outlet communicating with said inner casing a substantial distance above said baille, and means for draining water from the bottom of said outer casing, said last named means being constructed and arranged to maintain the level of the water in said inner casing above said baffle and below said oil outlet.

7. An oil and water separator comprising a l vertically elongated external casing closed atits upper and lower ends, an internal casing supported within and spaced throughout its circumference from said outer casing, said inner casing of said inner casing unit, a horizontal baille unit having its lower end open for communication with the space between said casings, means for introducing fluids to be treated `into said space at a point a substantial distance above the lower end of said inner casing, heating means within the lower portion of said inner casing, a baille arranged above said heating means, an oil outlet communicating with said inner casing a substantial distance above said bafile, a duct externally of saidouter casing and communicating at its ends with the interior of the top and bottom of suchk casing, and a water outlet connection tapped into said duct at such height thereinV as to maintain the level of the' water in said innertically elongated external casing closed at `its upper and lower ends; an internal casing supported within and spaced throughout its circum ference from said outer casing, said inner casing having its lower end open for communication with the space between said casings, means for y introducing uids to be treated into said space at a point a substantial distance above the lower end of said inner casing, heating means Within the lower portion of said inner casing, a horizontal baille unit in said inner casing above said heating means, said baille unit having a plurality of upwardly extending annular ridges defining openings therethrough and the peripheral edge of said baille unit being spaced from said inner casing for the downward passage of water settling on said baille unit, an oil outlet connected to said inner casing a substantial distance above said baille unit, and means for withdrawing water from the bottom of said outer casing.

9. An oil and water separator comprising a vertically elongated external casing closed at its upper and lower ends, an internal casing supported within and spaced throughout its circumference from said outer casing, said inner casing having its lower end open i'or communication with thc-space between said casings, means for introducing fluids to be treated into said space at a point a substanti-al distance above the lower end of said inner casing. heating means-within the lower portion of said inner, casing, a horizontal baille unit in said inner casing above said heating means, said baille unit having a plurality of upwardly extending annular ridges deiining openings therethrough and the peripheral edge of said baille unit being spaced from said inner casing for the downward passage of water settling on said baille unit, an oil outlet connected to said inner casing a substantial distance above said baille unit, a duct externally of said outer casing and communicating with the interior thereof adjacent its top and bottom, and a water outlet pipe tapped into said duct at such height therein as to maintain the level of the water in said inner casing above said baille unit and below said oil outlet.

10. An oil and water separator comprising a vertical cylindrical casing closed at its ends, a cylinder within said casing concentric therewith and open at its ends to the interior thereof, said cylinder being spaced from said casing to deiine an annular vertically elongated space, means for introducing fluids to be treated into said annular space at a point a substantial distance above the lower end oi' said cylinder, heating means within said cylinder adjacent the lower end thereof, mechanical baille means above said heating means, an oil outlet communicating with the interior of said cylinder above said baille means, and means for drawing on' water from the bottom of said casing.

11. An oil and water separator comprising a vertical cylindrical casing closed at its ends, a cylinder within said casing concentric therewith and open at its ends to the interior thereof. said cylinder being spaced from said casing to denne an annular vertically elongated space, an inlet pipe .for uids to be treated extending through said 'casing and into said annular space tangentially thereof a substantial distance above the lower end of said cylinder, heating meanswithin said cylinder adjacent the lower end thereof, mechanical' baille means above said heating means, an oil outlet communicating with the interior of said cylinder above said baille means. and means for drawing off water from the bottom of said casing.

12. An oil and water separator comprising a `vertical cylindrical casing closed at its ends, a

cylinder within said casing concentric therewith and open at its ends to the interior thereof, said cylinderbeing spaced from said casing to deilne an annular vertically elongated space, means for introducing iluids to be treated into said annular space at a point a substantial distance above the lower end of said cylinder, heating means within said cylinder adjacent the lower end thereof, a horizontal baille unit in said cylinder above said heating means, said baille unit being provided with a plurality of openings therethrough and having its periphery spaced from said cylinder for the downward flow of water settling on sai-d baille unit, an oil outlet communicating with said cylinder above said baille unit, and means for drawing of! water from thebottom of said casing.

13. An olland water separator comprising a vertical cylindrical casing closed at its ends, a cylinder within said casing concentric therewith and open at its ends to the interior thereof, said cylinder being spaced from said casing to deilne an annular vertically elongated space, means for introducing iiuids to be treated into said annular space at a point a substantial distance above the lower end of said cylinder, heating means within said cylinder adjacent the lower end thereof, a horizontal baille unit in said cylinder above said heatingmeans, said baffle unit being provided with a plurality of openings therethrough and having its periphery spaced from said cylinder for the downward ilow of water settling on said baille unit, an oil outlet communicating with said cylinder above said baille unit, a 'duct externally of said casing and communicating with the top and bottom thereof. and a water outlet pipe communicating with said duct at such point as to maintain the level of the waterin said cylinder above said bame unit and below said oil outlet.

14. An oil and water'separator comprising a vertically elongated external casing closed at its upper and lower ends, an internal casing supported within and spaced throughout its circumference from said outer casing, said inner casing having its lower end open for communication with the space between said casings, means for introducing fluids to be treated into said space at a point a substantial distance above the lower end of said inner casing, heating means within the lower portion of said inner casing, a baille arranged above said heating means, `an oil outlet communicating with said inner casing a substantial distance above said baflle unit, means for draining water from the bottom of said outer casing, said last named means beingr constructed and arranged to maintain the level o! the water in said inner casing above said baille and below said oil outlet, and means for pumping water from said external casing adjacent said heating means to the space between said casings adjacent the point of introduction of the iluids to be treated.

15. An oil and water separator comprising a vertical cylindrical casing closed at its ends, a cylinder within said casing concentric therewith and open at its ends to the interior thereof, said cylinder being spaced from said casing to define an annular vertically elongated space, means for in'- Atroducing fluids to be treated into `said annular said cylinder above said baille means, means for drawing olf water from the bottom Aof said casing, a pipe connection communicating 4at one end with said casing adjacent said heating means I nular space at a point a substantial distance above the lower end of` said cylinder, heating means within said cylinder adjacent the lower end thereof, mechanical baiile means above said heating means, an oil outlet communicating with the interior of said cylinder above said baille means, means for drawing oil water from the bottom of said casing, a ring in said annular space above said -fluld introducing means, said ring having its outer periphery xed to said casing andA having its inner periphery provided with an upstanding annular flange spaced from said cylinder to form an annular channel in conjunction with said casing, and means for pumping water from said casing adjacent said heating means to said channel. l

17. An oil and water separator comprising a vertical cylindrical casing closed at its ends, a cylinder within said casing concentric therewith and open at its ends to the interior thereof, said cylinder being spaced from said casing to define an annular vertically elongated space, means for introducing fluids to be treated into said annular space at a point a substantial distance above the lower end of said cylinder, heating means within said cylinder adjacent the lower end thereof, a plurality of horizontal spaced baille units in said cylinder above said heating means, each baille unit being circular in shape with its v periphery slightly spaced from said cylinder and above the uppermost baille unit, and means for drawing off water from the bottom of said casy n vertical cylindrical casing closed at its ends, a

cylinder within said casing concentric therewith and open at its ends to the interior thereof, said cylinder being spaced from said casing to denne an annular vertically elongated space, means for introducing iluids to be treated into said annular space 'at a point a substantial distance above the lower end of said cylinder, heating means witnin said cylinder adjacent the lower end thereof, a plurality of spaced horizontal baille units in said cylinder above said heating means and each provided with openings therethrough and having its periphery spaced from said cylinder, each baille unit. being formed of a pair of complementary semi-circular plates, means for supporting the plates of each pair, a manhole tube projecting through said casing and said cylinder and elongated transversely in one direction to provide for the insertion and removal therethrough of theindlvidualpiates of said baille units, an oil outlet communicating with said cylinder above the uppermost baille unit, and means for maintaining the level of water in said cylinder at a point above the uppermost baille unit and below said oil outlet.

GEORGE E. DAKE. JOE A. LYNE.

REFERENCES CITED The following references are of record inthe ille of this patent:

UNITED STATES PATENTS Number Name Date 1,618,151 Fisher Feb. 15, 1927 2,016,642 Lincoln Oct. 8, 1935 2,156,123 Mount Apr. 25, 1939 2,181,685 Walker Nov. 28, 1939 2,232,948 Ihrig et al Feb. 25. 1941 2,273,915 Wellman n Feb. 24, 1942 2,326,384 Mount Aug.v 10, 1943 2,342,950 Loveiady et al Feb. 29, 1944 

